I just found this citation, not cited in the *AMS* paper (but I cannot yet access the *Israel J Math* paper itself): >Schramm, Oded. "Square tilings with prescribed combinatorics." *Israel Journal of Mathematics* 84, no. 1-2 (1993): 97-118. [DOI](https://doi.org/10.1007/BF02761693). **Abstract**. "Let $T$ be a triangulation of a quadrilateral $Q$, and let $V$ be the set of vertices of $T$. Then there is an essentially unique tiling $Z=(Z_v: v ∈ V)$ of a rectangle $R$ by squares such that for every edge of $T$ the corresponding two squares $Z_u, Z_v$ are in contact and such that the vertices corresponding to squares at corners of $R$ are at the corners of $Q$. It is also shown that the sizes of the squares are obtained as a solution of an extremal problem which is a discrete version of the concept of extremal length from conformal function theory. In this discrete version of extremal length, the metrics assign lengths to the vertices, not the edges." Because I cannot (yet) access the paper, it is unclear to me if this is the source. But it seems like it may be.